Cyclic Loading and Unloading of Weakly Consolidated Sandstone with Various Water Contents-Reference-Cited by-同舟云学术

Cyclic Loading and Unloading of Weakly Consolidated Sandstone with Various Water Contents

Published:2023-09-18 Issue:18 Volume:15 Page:13866
ISSN:2071-1050
Container-title:Sustainability
language:en
Short-container-title:Sustainability

Author:

Long Yaxin¹,Sun Lihui¹²,Cai Zhenyu¹,Jiang Zhixin¹,Wang Zongze¹,He Qingfeng¹,Bai Zhong³

Affiliation:

1. School of Mining and Geomatics Engineering, Hebei University of Engineering, Handan 056038, China

2. Collaborative Innovation Center of the Comprehensive Development and Utilization of Coal Resource, Handan 056038, China

3. Inner Mongolia Zoli Science and Technology Industry Development Company Limited, Ordos 017000, China

Abstract

Weakly cemented rocks have a loose structure, poor mechanical properties, and soften and disintegrate upon contact with water. Mining operations cause damage and ruptures to rocks under cyclic loading and unloading, leading to serious disasters. This study investigated the effects of cyclic loading and unloading on the mechanical properties of weakly cemented sandstone (WCS) with various water contents (0–7.72%). A numerical model based on the particle flow theory simulated the behavior of WCS particles. The stress–strain relationships, damage and rupture patterns, energy evolution, and damage properties of WCS were examined using loading–unloading simulations. Water negatively affected the strength and elastic modulus of WCS. High water contents (>2.31%) increased the rupture probability and affected the rupture modes. Ruptures mainly occurred via the main fissure and caused cleavage damage; however, instances of tensile damage and shear slippage increased with an increasing water content. The elastic, dissipation, and total energies gradually increased with increasing cyclic loading and unloading. The damage factors of WCS with different water contents gradually increased with the growth rate. The mechanical properties of the sandstone were deteriorated by water, which increased the peak value of the damage factor from 0.77 for 0% moisture to 0.81 for 7.72% moisture.

Funder

National Natural Science Foundation of China

Inner Mongolia “science and technology to enhance Mongolia” action key project

Key Research and Development Program of Hebei Province

Publisher

MDPI AG

Subject

Management, Monitoring, Policy and Law,Renewable Energy, Sustainability and the Environment,Geography, Planning and Development,Building and Construction

Link

https://www.mdpi.com/2071-1050/15/18/13866/pdf

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